The rate of a particular reaction triples when the temperature is increased from 25.00 °C to 61.00°C. Calculate the activation energy for the reaction (in units of kJ/mol). In([A]MA]) = -kt t1/2= (In2/k) (1/(A) = kt + (1/IAL) t1/2= (1/k[A],) (A =-kt + [Al. t1/2= ([A]/2k) In(k2/k) = (E/R)[(1/T;) – (1/T2)] R= 0.0820573L-atm/(K mol) R= 8.31446 J/(K- mol)

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The rate of a particular reaction triples when the temperature is increased from 25.00 °C to 61.00°C. Calculate the activation energy for the reaction (in units
of kJ/mol).
In([A]MA]) = -kt
t1/2= (In2/k)
(1/(A) = kt + (1/IAL)
t1/2= (1/k[A],)
(A =-kt + [Al.
t1/2= ([A]/2k)
In(k2/k) = (E/R)[(1/T;) – (1/T2)]
R= 0.0820573L-atm/(K mol)
R= 8.31446 J/(K- mol)
Transcribed Image Text:The rate of a particular reaction triples when the temperature is increased from 25.00 °C to 61.00°C. Calculate the activation energy for the reaction (in units of kJ/mol). In([A]MA]) = -kt t1/2= (In2/k) (1/(A) = kt + (1/IAL) t1/2= (1/k[A],) (A =-kt + [Al. t1/2= ([A]/2k) In(k2/k) = (E/R)[(1/T;) – (1/T2)] R= 0.0820573L-atm/(K mol) R= 8.31446 J/(K- mol)
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